Multiple ChoiceThe macrostate of a set of coins is given by the number of coins that are heads-up. If you have 100 coins, initially with 20 heads-up, what is Δ? when the system is changed to have 50 heads-up? Note that the multiplicity of k coins which are heads-up, out of N total coins, is Ω=N!k!(N−k)!\Omega=\frac{N!}{k!\left(N-k\right)!}Ω=k!(N−k)!N!. Does this change in macrostate satisfy the second law of thermodynamics?318views
Textbook QuestionCALC A lonely party balloon with a volume of 2.40 L and containing 0.100 mol of air is left behind to drift in the temporarily uninhabited and depressurized International Space Station. Sunlight coming through a porthole heats and explodes the balloon, causing the air in it to undergo a free expansion into the empty station, whose total volume is 425 m^3. Calculate the entropy change of the air during the expansion.536views
Textbook QuestionA box is separated by a partition into two parts of equal volume. The left side of the box contains 500 molecules of nitrogen gas; the right side contains 100 molecules of oxygen gas. The two gases are at the same temperature. The partition is punctured, and equilibrium is eventually attained. Assume that the volume of the box is large enough for each gas to undergo a free expansion and not change temperature. (a) On average, how many molecules of each type will there be in either half of the box?408views
Textbook QuestionYour calculator can't handle enormous exponents, but we can make sense of large powers of e by converting them to large powers of 10. If we write e = 10^α, then e^β = (10^α)^β = 10^αβ. b. What is the multiplicity of a macrostate with entropy S = 1.0 J/K? Give your answer as a power of 10.204views
Textbook Question(II) Suppose that you repeatedly shake six coins in your hand and drop them on the floor. Construct a table showing the number of microstates that correspond to each macrostate. What is the probability of obtaining(a) three heads and three tails ?63views
Textbook Question(II) Suppose that you repeatedly shake six coins in your hand and drop them on the floor. Construct a table showing the number of microstates that correspond to each macrostate. What is the probability of obtaining(b) six heads?61views
Textbook Question(II) Calculate the probabilities, when you throw two dice, of obtaining(a) a 768views
Textbook Question(II) Calculate the probabilities, when you throw two dice, of obtaining(b) an 1170views
Textbook QuestionA bowl contains many red, orange, and green jelly beans, in equal numbers. You are to make a line of 3 jelly beans by randomly taking 3 beans from the bowl.(a) Construct a table showing the number of microstates that correspond to each macrostate.66views
Textbook QuestionA bowl contains many red, orange, and green jelly beans, in equal numbers. You are to make a line of 3 jelly beans by randomly taking 3 beans from the bowl. Construct a table showing the number of microstates that correspond to each macrostate. Then determine the probability of(b) all 3 beans red,55views
Textbook QuestionRank the following five-card hands in order of increasing probability: (a) four aces and a king; (b) six of hearts, eight of diamonds, queen of clubs, three of hearts, jack of spades; (c) two jacks, two queens, and an ace; and (d) any hand having no two equal-value cards (no pairs, etc.). Discuss your ranking in terms of microstates and macrostates.63views
Textbook Question(I) Use Eq. 20–14 to determine the entropy of each of the five macrostates listed in Table 20–1 on page 595.<IMAGE>94views